A 1 week IGF-1 infusion decreases arterial insulin concentrations but increases pancreatic insulin content and islet vascularity in fetal sheep

doi:10.14814/phy2.13840

. 2018 Sep;6(17):e13840.

doi: 10.14814/phy2.13840.

A 1 week IGF-1 infusion decreases arterial insulin concentrations but increases pancreatic insulin content and islet vascularity in fetal sheep

Alicia White¹, Samantha Louey², Eileen I Chang^{1

2}, Brit H Boehmer¹, David Goldstrohm¹, Sonnet S Jonker², Paul J Rozance¹

Affiliations

¹ Department of Pediatrics, Perinatal Research Center, University of Colorado Denver School of Medicine, Aurora, Colorado.
² Center for Developmental Health, Knight Cardiovascular Institute, Oregon Health & Science University, Portland, Oregon.

PMID: 30175552
PMCID: PMC6119661
DOI: 10.14814/phy2.13840

A 1 week IGF-1 infusion decreases arterial insulin concentrations but increases pancreatic insulin content and islet vascularity in fetal sheep

Alicia White et al. Physiol Rep. 2018 Sep.

. 2018 Sep;6(17):e13840.

doi: 10.14814/phy2.13840.

Authors

Alicia White¹, Samantha Louey², Eileen I Chang^{1

2}, Brit H Boehmer¹, David Goldstrohm¹, Sonnet S Jonker², Paul J Rozance¹

Affiliations

¹ Department of Pediatrics, Perinatal Research Center, University of Colorado Denver School of Medicine, Aurora, Colorado.
² Center for Developmental Health, Knight Cardiovascular Institute, Oregon Health & Science University, Portland, Oregon.

PMID: 30175552
PMCID: PMC6119661
DOI: 10.14814/phy2.13840

Abstract

Fetal insulin is critical for regulation of growth. Insulin concentrations are partly determined by the amount of β-cells present and their insulin content. Insulin-like growth factor-1 (IGF-1) is a fetal anabolic growth factor which also impacts β-cell mass in models of β-cell injury and diabetes. The extent to which circulating concentrations of IGF-1 impact fetal β-cell mass and pancreatic insulin content is unknown. We hypothesized that an infusion of an IGF-1 analog for 1 week into the late gestation fetal sheep circulation would increase β-cell mass, pancreatic islet size, and pancreatic insulin content. After the 1-week infusion, pancreatic insulin concentrations were 80% higher than control fetuses (P < 0.05), but there were no differences in β-cell area, β-cell mass, or pancreatic vascularity. However, pancreatic islet vascularity was 15% higher in IGF-1 fetuses and pancreatic VEGFA, HGF, IGF1, and IGF2 mRNA expressions were 70-90% higher in IGF-1 fetuses compared to control fetuses (P < 0.05). Plasma oxygen, glucose, and insulin concentrations were 25%, 22%, and 84% lower in IGF-1 fetuses, respectively (P < 0.05). The previously described role for IGF-1 as a β-cell growth factor may be more relevant for local paracrine signaling in the pancreas compared to circulating endocrine signaling.

Keywords: Beta-cell; fetus; insulin; insulin-like growth factor; islet.

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Figures

**Figure 1**
There was no correlation between fetal arterial plasma insulin concentrations in the IGF‐1 group with fetal arterial plasma glucose (A), oxygen (B), norepinephrine (C), or cortisol (D) concentrations. Individual control (■) and IGF‐1 (○) fetal data are plotted.

**Figure 2**
Pancreatic islet vessel density was measured by immune‐ and GITC‐conjugated GS‐1 staining and was higher in IGF‐1 fetuses (B) compared to Control fetuses (A). Costatining was performed for insulin (blue) as well as glucagon, somatostatin, and pancreatic polypeptide (red). (C) Data are mean ± SE for Control (n = 7) and IGF‐1 (n = 8) fetuses. *Indicates P < 0.05 by Students t test.

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References

1. Agudo, J. , Ayuso E., Jimenez V., Salavert A., Casellas A., Tafuro S., et al. 2008. IGF‐I mediates regeneration of endocrine pancreas by increasing beta cell replication through cell cycle protein modulation in mice. Diabetologia 51:1862–1872. - PubMed
1. Andrews, S. E. , Brown L. D., Thorn S. R., Limesand S. W., Davis M., Hay W. W. Jr, et al. 2015. Increased adrenergic signaling is responsible for decreased glucose‐stimulated insulin secretion in the chronically hyperinsulinemic ovine fetus. Endocrinology 1:367–376. - PMC - PubMed
1. Barry, J. S. , and Anthony R. V.. 2008. The pregnant sheep as a model for human pregnancy. Theriogenology 69:55–67. - PMC - PubMed
1. Bauer, M. K. , Harding J. E., Bassett N. S., Breier B. H., Oliver M. H., Gallaher B. H., et al. 1998. Fetal growth and placental function. Mol. Cell. Endocrinol. 140:115–120. - PubMed
1. Benjamin, J. S. , Culpepper C. B., Brown L. D., Wesolowski S. R., Jonker S. S., Davis M. A., et al. 2017. Chronic anemic hypoxemia attenuates glucose‐stimulated insulin secretion in fetal sheep. Am. J. Physiol. Regul. Integr. Comp. Physiol. 312:R492–R500. - PMC - PubMed

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[1] Agudo, J. , Ayuso E., Jimenez V., Salavert A., Casellas A., Tafuro S., et al. 2008. IGF‐I mediates regeneration of endocrine pancreas by increasing beta cell replication through cell cycle protein modulation in mice. Diabetologia 51:1862–1872. - PubMed

[2] Agudo, J. , Ayuso E., Jimenez V., Salavert A., Casellas A., Tafuro S., et al. 2008. IGF‐I mediates regeneration of endocrine pancreas by increasing beta cell replication through cell cycle protein modulation in mice. Diabetologia 51:1862–1872. - PubMed

[3] Andrews, S. E. , Brown L. D., Thorn S. R., Limesand S. W., Davis M., Hay W. W. Jr, et al. 2015. Increased adrenergic signaling is responsible for decreased glucose‐stimulated insulin secretion in the chronically hyperinsulinemic ovine fetus. Endocrinology 1:367–376. - PMC - PubMed

[4] Andrews, S. E. , Brown L. D., Thorn S. R., Limesand S. W., Davis M., Hay W. W. Jr, et al. 2015. Increased adrenergic signaling is responsible for decreased glucose‐stimulated insulin secretion in the chronically hyperinsulinemic ovine fetus. Endocrinology 1:367–376. - PMC - PubMed

[5] Barry, J. S. , and Anthony R. V.. 2008. The pregnant sheep as a model for human pregnancy. Theriogenology 69:55–67. - PMC - PubMed

[6] Barry, J. S. , and Anthony R. V.. 2008. The pregnant sheep as a model for human pregnancy. Theriogenology 69:55–67. - PMC - PubMed

[7] Bauer, M. K. , Harding J. E., Bassett N. S., Breier B. H., Oliver M. H., Gallaher B. H., et al. 1998. Fetal growth and placental function. Mol. Cell. Endocrinol. 140:115–120. - PubMed

[8] Bauer, M. K. , Harding J. E., Bassett N. S., Breier B. H., Oliver M. H., Gallaher B. H., et al. 1998. Fetal growth and placental function. Mol. Cell. Endocrinol. 140:115–120. - PubMed

[9] Benjamin, J. S. , Culpepper C. B., Brown L. D., Wesolowski S. R., Jonker S. S., Davis M. A., et al. 2017. Chronic anemic hypoxemia attenuates glucose‐stimulated insulin secretion in fetal sheep. Am. J. Physiol. Regul. Integr. Comp. Physiol. 312:R492–R500. - PMC - PubMed

[10] Benjamin, J. S. , Culpepper C. B., Brown L. D., Wesolowski S. R., Jonker S. S., Davis M. A., et al. 2017. Chronic anemic hypoxemia attenuates glucose‐stimulated insulin secretion in fetal sheep. Am. J. Physiol. Regul. Integr. Comp. Physiol. 312:R492–R500. - PMC - PubMed

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A 1 week IGF-1 infusion decreases arterial insulin concentrations but increases pancreatic insulin content and islet vascularity in fetal sheep

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A 1 week IGF-1 infusion decreases arterial insulin concentrations but increases pancreatic insulin content and islet vascularity in fetal sheep

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